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Efficient n-th Root Computation Microcontrollers Using Magic Constants & Newton #WorldResearchAwards

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Introduction The rapid expansion of embedded systems in IoT modules , smart sensors , and wearable devices has intensified the need for fast and accurate numerical computations on platforms with limited computational resources. Among these operations, n-th root computation plays a crucial role in many scientific and engineering tasks. Conventional library functions often fail to meet stringent real-time and efficiency requirements. This research addresses these challenges by proposing optimized floating-point algorithms tailored for microcontroller-based environments . Magic-Constant-Based Initial Estimation A key contribution of this work is the use of a carefully designed “ magic constant ” to generate an efficient initial approximation for n-th root calculations. This approach significantly reduces the number of iterations required for convergence. By leveraging properties of floating-point representations, the method provides a strong starting point that balances simplicity, s...
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Lifetime Achievement Award | Honoring Global Scientific Excellence 🏆 #LifetimeAchievement #WorldResearchAwards

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Introduction The Lifetime Achievement Award represents one of the highest honors in the global research ecosystem , celebrating individuals whose careers reflect decades of dedication, integrity, and transformative scientific impact. Presented under the Global Particle Physics Excellence Awards, this distinction recognizes lifelong contributions that have advanced scientific knowledge, strengthened global collaboration, and inspired future generations of researchers across disciplines. Legacy of Scientific Excellence This award acknowledges researchers whose sustained scholarly efforts have shaped entire fields of study. Through consistent innovation, high-impact publications, and pioneering discoveries, recipients have built enduring scientific legacies that continue to influence contemporary research and guide emerging scholars worldwide. Visionary Leadership in Research Honorees of the Lifetime Achievement Award are recognized not only for technical brilliance but also for visio...
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Numerical Study of Wind-Wave Loads on Nuclear Icebreakers #WorldResearchAwards

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Introduction Nuclear-powered icebreakers are indispensable assets for polar development , scientific exploration , and global strategic operations in the Arctic . Operating in some of the harshest environments on Earth, these vessels must withstand extreme meteorological phenomena , including tornadoes . Ensuring their structural safety and operational reliability under such rare but high-impact events is critical for sustainable Arctic navigation and environmental protection. This research addresses the growing need for advanced safety evaluations by focusing on the response of nuclear-powered icebreakers to tornado-induced wind and wave loads using robust numerical approaches. Numerical Modeling of Tornado Loads To accurately represent tornado-induced wind effects, this study employed a modified Ward-type tornado simulator . The model enabled the computation of spatially varying wind fields acting on the icebreaker at different azimuth angles . By resolving the complex flow charact...
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Corrosion Failure Analysis of MWD Cylinders in Directional Drilling #WorldResearchAwards,

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Introduction During shale gas drilling operations in Central China, the reliability of measurement while drilling (MWD) tools is critical for real-time logging and operational safety. The pressure-resistant cylinder , a core structural component of the MWD tool, is continuously exposed to high stress, corrosive drilling fluids, and abrasive particles. In this study, a severe failure characterized by extensive microcracking on the outer surface of a Cr20Ni11 (UNS 308) austenitic stainless-steel pressure-resistant cylinder is investigated. The failure significantly compromised tool integrity and data reliability, making it essential to identify the underlying corrosion and fracture mechanisms from a materials science and engineering perspective. Macroscopic and Physicochemical Characteristics of the Failed Cylinder Comprehensive macroscopic morphology analysis and physicochemical performance tests were conducted to evaluate whether the failed pressure-resistant cylinder met standard...
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Investigation of Few-Layer Graphene Ubiquitin Interactions Optical Spectroscopy #WorldResearchAwards

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Introduction Understanding protein–nanoparticle interactions is a rapidly advancing area of research due to its profound implications in biomedicine , biosensing , and nanotechnology . Among various nanomaterials, few-layer graphene (FLG) has attracted significant attention because of its unique physicochemical properties , high surface area, and biocompatibility . Proteins interacting with nanomaterials often undergo conformational changes that can alter their biological function. Ubiquitin , a small yet functionally critical protein involved in protein degradation , signaling, and cellular regulation , serves as an excellent model to study these interactions. Investigating FLG–ubiquitin complexes provides valuable molecular-level insight into how nanomaterials can be safely integrated into biological systems without compromising protein structure or function. Rationale for Studying FLG–Ubiquitin Interactions Ubiquitin’s compact structure, well-defined secondary elements, and biol...
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Optimization of T6 Heat Treatment for EV31A Magnesium Alloy Performance #WorldResearchAwards

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Introduction The optimization of heat treatment routes is critical for unlocking the full potential of rare-earth-containing magnesium alloys for high-performance structural applications. EV31A magnesium alloy , strengthened by Nd, Gd, Zn, and Zr additions , has attracted significant attention due to its promising elevated-temperature mechanical properties. This study focuses on systematically optimizing the T6 heat treatment parameters to establish clear correlations between processing, microstructural evolution, and mechanical performance, aiming to enhance both strength and ductility for advanced engineering applications. Experimental Methodology A comprehensive experimental framework was employed to evaluate the effects of T6 heat treatment on EV31A alloy. Differential scanning calorimetry (DSC) was used to identify suitable solution treatment temperatures, while optical microscopy , SEM-EDS , XRD , and TEM provided multi-scale characterization of phase constitution and microstr...
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Progress in Charge Transfer in 2D Metal Halide Perovskite Heterojunctions Review #WorldResearchAwards

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Introduction Metal halide perovskite ( MHP )-based heterojunctions have emerged as a transformative platform in optoelectronic materials research due to their layered crystal structures, tunable band gaps, and outstanding light–matter interaction. When combined with two-dimensional (2D) materials , these heterojunctions enable precise control over interfacial charge transfer , which is essential for high-performance optoelectronic devices. Understanding the fundamental mechanisms governing carrier generation, separation, and recombination at these interfaces is therefore a central research focus. Charge Transfer Mechanisms at MHP/2D Interfaces At the core of MHP-based heterojunction performance lies interfacial charge transfer. Band alignment between MHPs and 2D materials such as graphene , MoS₂, and WS₂ facilitates efficient electron–hole separation. Type-II band structures are particularly effective, allowing electrons and holes to migrate into different layers, thereby extendin...
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